Abstract
Luminescent nanocrystals having distinctive ellipsoidal morphology and the complete solid solution of monoclinic phase in the YNbO4–EuNbO4 system were hydrothermally formed under weakly basic conditions at 180–240°C for 5h. The excitation spectra of the Y1−xEuxNbO4 nanocrystals, which consisted of the charge transfer (CT) band around 240–270nm due to [NbO4]3−–Eu3+ interaction and several sharp bands corresponding to the f–f transitions of Eu3+, e.g. the most intense absorption band at 395nm (7F0→5L6), showed that the compounds could be excited by both ultraviolet and visible light. A dominant red emission at 610nm and a weak orange emission at 590nm assigned to 5D0→7F2 and 5D0→7F1 transitions of Eu3+, respectively were observed in the as-prepared nanocrystals containing europium under excitation at 395nm. The heat treatment at temperatures more than 1000°C in air was effective for the improvement in the photoluminescence intensity of the as-prepared solid solutions. By the enhancement in the crystallinity and crystallite growth of the monoclinic phase through heat treatment at 1300°C in air, the luminescence intensity of the as-prepared solid solution, Y0.75Eu0.25NbO4 (x=0.25), which showed the most significant photoluminescence, became more than 5 times as strong as that before the heat treatment.
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